Combined-cycle gas turbine: Difference between revisions

Revision as of 11:23, 22 August 2010

T-s diagram for the toluene combined-cycle gas turbine cycle

The new FPROPS code has been used to develop a number of energy system models by John Pye for a paper to be presented at SolarPACES 2010. These models can be found in our source-code repository and will be included in the next release of ASCEND. For now, the key files are:

models/johnpye/fprops/rankine_fprops.a4c - Rankine cycle models for CO2, toluene, water and ammonia.
models/johnpye/fprops/rankine_regen.a4c - regenerative Rankine cycle models for toluene, water and ammonia.
models/johnpye/brayton.a4c - air Brayton cycle models, including regenerative Brayton cycle.
models/johnpye/fprops/combinedcycle_fprops.a4c - Combined-cycle models, with open air Brayton cycles coupled to toluene, water, and ammonia Rankine cycles.
models/johnpye/fprops/cycle_plot.py - routines used to plot the figures shown in the paper.

Note that the plotting for these models is done using the admittedly-buggy ExtPy extension for ASCEND.

@@ Line 5: / Line 5: @@
 * {{src|models/johnpye/fprops/rankine_regen.a4c}} - regenerative Rankine cycle models for toluene, water and ammonia.
 * {{src|models/johnpye/brayton.a4c}} - air Brayton cycle models, including regenerative Brayton cycle.
-* {{src|models/johnpye/combinedcycle_fprops.a4c}} - Combined-cycle models, with open air Brayton cycles coupled to toluene, water, and ammonia Rankine cycles.
+* {{src|models/johnpye/fprops/combinedcycle_fprops.a4c}} - Combined-cycle models, with open air Brayton cycles coupled to toluene, water, and ammonia Rankine cycles.
 * {{src|models/johnpye/fprops/cycle_plot.py}} - routines used to plot the figures shown in the paper.

Combined-cycle gas turbine: Difference between revisions

Revision as of 11:23, 22 August 2010

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